Faculty Bibliography

PURPOSE: To report anatomic and visual improvement after vitrectomy with removal of adherent plaques of vitreous and gas tamponade in highly myopic eyes with detachments over posterior staphylomata. METHODS: Eyes with retinal detachment over staphylomata were treated with vitrectomy and vitreous cortex removal. Adherent plaques of vitreous were invariably found on the detached retina and were easier to identify with the aid of intraocular triamcinolone. Removal of the vitreous plaques and placement of long-acting gas affected surgical repair. Outcome measures included best-corrected visual acuity and retina reattachment confirmed by biomicroscopic appearance and optical coherence tomography findings. RESULTS: Six eyes of five consecutive patients were treated. The mean preoperative best-corrected visual acuity was 20/100, and the mean time of documented detachment was 21 months. The internal limiting membrane was not removed in any patient. After surgery, all patients' retinas remained attached during the mean follow-up period of 19.1 months. At the end of the follow-up period, the mean best-corrected visual acuity was 20/60, an improvement that was statistically significant (P = 0.027). CONCLUSION: Retinal detachment over staphylomata in highly myopic eyes appears to be tractional from unresolved forces caused by adherent plaques of vitreous. Removal of the vitreous, without removing the internal limiting membrane, can reattach the retina and lead to anatomic and visual acuity improvements

PURPOSE: To review and update techniques of posterior segment ophthalmic fundus imaging. DESIGN: Literature review and collective experience of the authors. METHODS: This perspective includes sections on digital imaging, fundus autofluorescence, ultrasonography, angiography, and optical coherence tomography (OCT) -ophthalmoscopy written by leading clinicians and researchers in these areas. RESULTS: Digital angiography has become the new standard in the ophthalmic community based upon improved technology which has enhanced resolution, processing time, and ease of image duplication, manipulation, and transmission. A relatively new imaging technique, fundus autofluorescence, highlights lipofuscin deposits and improves our understanding of the metabolic status of the retinal pigment epithelium. Diagnostic ultrasonography continues to be a major adjunct to ocular evaluation where advances now allow for exceptional versatility and portability. High speed angiographic techniques provide detailed visualization of choroidal perfusion which improves our understanding of both normal and pathologic vascular phenomenon. Advances in high-resolution OCT currently under development promise an even more detailed fundus representation. The integration of the scanning laser ophthalmoscope and OCT has produced a dynamic new instrument, the OCT ophthalmoscope, which simultaneously images the fundus in numerous ways with point to point correlation. CONCLUSIONS: Ophthalmic imaging technology has revolutionized fundus examination. Currently available systems have contributed significantly to our understanding of the pathophysiology and treatment of various retinal diseases. Future advances promise near histologic resolution of retinal structures as well as real-time image manipulation and instantaneous transmission world-wide

We demonstrate the clinical application of a multiplanar imaging system that simultaneously acquires en face (C-scan) optical coherence tomography (OCT) and the corresponding confocal ophthalmoscopic images, along with cross-sectional (B-scan) OCT at specifiable locations on the confocal image. The advantages of the simultaneous OCT and confocal acquisition as well as the challenges of interpreting the C-scan OCT images are discussed. Variations in tissue inclination with respect to the coherence wave surface alter the sampling of structures within the depth of the retina, producing novel slice orientations that are often challenging to interpret. We have evaluated for the first time the utility of C-scan OCT for a variety of pathologies, including melanocytoma, diabetic retinopathy, choroidal neovascular membrane, and macular pucker. Several remarkable new aspects of clinical anatomy were revealed using this new technique. The versatility of selective capture of C-scan OCT images and B-scan OCT images at precise points on the confocal image affords the clinician a more complete and interactive tool for 3-D imaging of retinal pathology

Using an advanced prototype of en-face OCT/cSLO instrument, an extensive array of clinic pathologies were studied including macular degeneration, central serous retinopathy (CSR), macular hole, macular pucker, cystoid macular edema (CME), diabetic maculopathy, and macular trauma. We report observation of reoccurring patterns in the en-face OCT images which could be identified with different diseases. Uniquely specific and reoccurring patterns could be characterized for macular hole ('chrysanthemum flower'), CME ('Swiss cheese wheel'), macular pucker ('star'), CSR ('target') and RPE detachment ('ring of light'). Other entities such as polypoidal choroidopathy and diabetic edema residues had easily recognizable features but were variable enough to defy specific descriptive comparison. To facilitate the interpretation of the en-face OCT images, a three dimensional interactive simulation was designed which allows the demonstration of characteristic features and artifacts encountered in the acquisition of transverse images

This paper demonstrates the clinical application of a multiplanar imaging system, which simultaneously acquires en-face (C-scan) OCT and corresponding confocal ophthalmoscopic images along with cross-sectional (B-scan) OCT at cursor designated locations on the confocal image. Advantages of the simultaneous OCT/confocal acquisition as well as the challenges of interpreting the C-scan OCT images are discussed. Variations in tissue inclination with respect to th coherence wave surface alters the sampling of structures within the depth in the retina, producing novel slice orientations which are often challenging to interpret. We evaluate for the first time the utility of C-scan OCT for a variety of pathologies including exudative ARMD, macular hole, central serous retinopathy, diabetic retinopathy, polypoidal choroidal vasculopathy and macular pucker. Several remarkable observations of new aspects of clinical anatomy were noted. The versatility of selective capture of C-scan OCT images and B-scan OCT images at precise points on the confocal image affords the clinician a more complete and interactive tool for 3D imaging of retinal pathology

PURPOSE: To study the effects of photodynamic therapy (PDT) using verteporfin on the treatment of patients with subfoveal choroidal neovascularization (CNV) secondary to multifocal choroiditis and panuveitis (MCP), an uncommon disorder with no proven forms of therapy. METHODS: A retrospective chart review of seven consecutive patients with subfoveal CNV secondary to MCP treated with PDT using verteporfin was performed. RESULTS: The mean age of the 7 patients (all myopic women) was 41.4 years. A mean of 1.86 treatments was performed, and the mean follow-up time was 10 months. Four of the seven patients were treated unsuccessfully with corticosteroids before referral for PDT. The mean improvement of visual acuity was 0.86 line; 3 patients (42.8%) had an improvement in visual acuity representing at least a halving of their visual angle, while the other 4 patients remained stable. There were no treatment-related side effects. CONCLUSIONS: Although the follow-up time and the number of patients in this study were limited, the use of PDT was associated with stabilization or improvement of visual acuity in patients with subfoveal CNV secondary to MCP. Further study of this treatment modality is indicated

BACKGROUND: Variability is introduced in three-dimensional (3-D) ultrasound assessments of intraocular tumours when multiple observers examine the same tumour or when multiple scans and measurements of the same tumour are carried out. We evaluated the magnitude and sources of variation associated with 3-D ultrasound measurements of choroidal tumour volume. METHODS: Three examiners performed 3-D ultrasonography of five choroidal tumours. Each examiner performed three scans of each tumour and then measured each scan three times to determine the volume. We determined the variation attributable to differences between examiners, scans and measurements by evaluating the contribution of each to the overall variation in tumour volume. A similar process was performed for tumour height for comparison purposes. RESULTS: The reliability of tumour volume measurements was found to be very high. The amount of overall variation, as defined by the coefficient of variation, was similar for tumour volume and tumour height and ranged from 4% to 17%. A total of 97% of the variation in tumour volume measurements and 84% of the variation in tumour height measurements was due to differences between tumours. Differences between examiners accounted for the most of the remaining variation (2% for volume and 7% for height). INTERPRETATION: Three-dimensional ultrasonography of intraocular tumours was highly reliable. Differences between examiners were the main source of variation